Causes
of Desertification
Desertification is
land degradation in the drylands due
to a number of factors including climatic
variations and human activities. Man-made
causes include, expansion of agriculture
and unsustainable agricultural practices
such as over cultivation, nutrient
inputs, poor irrigation practices,
deforestation and overgrazing. Such
unsustainable resource management
practices are often induced by population
pressures, social conflicts and disruption
of social systems, inappropriate government
policies and poverty.
People affected
by desertification often need to draw
on their limited assets in order to
survive, which accentuates their poverty.
This constitutes a vicious cycle linking
deteriorating natural resources to
deteriorating livelihoods as people
need to encroach further on fragile
soils, sparse vegetation and limited
water resources to meet their basis
needs for food, shelter and livelihood.
Many of the complex causal relationships
are not fully understood. It is often
very difficult to separate the causes
from the effects.
(i) Unsustainable
Agricultural practices
- Extensive and frequent
cropping of agricultural areas
- Excessive use of fertilisers
- Shifting cultivation without allowing
adequate period of recovery
(2) Unsustainable
Water Management
- Poor & Inefficient
Irrigation Practices
- Over abstraction of ground water,
particularly in the coastal regions
resulting in saline intrusion into
aquifers
(3) Conversion of
land for other uses
- Prime forest into
agricultural land
- Agricultural land for other uses
- Encroachment of cities and towns
into agricultural land
(4) Deforestation
- Unsustainable forest
management practices
- Forest land clearances for agriculture
(including shifting cultivation)
- Other land use changes (Projects-
energy, roadways,etc)
- Overgrazing, excessive fuel wood
collection
- Uncontrolled logging and illegal
felling and
- Forest fires
(5) Industrial, mining
and other activities without satisfactory
measures for prevention of land
degradation and land rehabilitation
(6) Demographic pressures
- human and livestock
(7) Frequent droughts/failure
of monsoon and their link with global
climate phenomena
Unsustainable
Agricultural Practices:
Unsustainable agricultural practices
include excessive use of fertilisers,
pesticides, frequent cropping patterns,
inappropriate technologies, or choice
of crops/ plants, etc. Non-point sources
of pollution is a problem in areas
with wide application of fertilisers.
Unsustainable
Water Management Practices:
Poor & inefficient
irrigation practices, over abstraction
of ground water, particularly in the
coastal regions resulting in saline
intrusion into aquifers, etc. are
some of major unsustainable water
management practices which has led
to problems of desertification in
such regions. Overabstraction of groundwater
without compensatory recharge has
led to depletion of groundwater table.
Land Use
changes. :
Diversion of land
from forestry and agriculture to other
land uses has been one of the principal
causes of land degradation. Wherever
diversion of forest land is unavoidable,
for instance for developmental projects
(energy, infrastructure, transportation,
etc.) compensatory afforestation on
non-forest land is mandatory. However,
loss of prime forests could have an
impact in the long-term stability
of the forests.
The other land use
change is due to encroachments, through
violation of forest boundaries, illegal
farming in forests. Due to their illegal
status, they are unable to receive
extension services and improve their
farming systems, further accelerating
land degradation. The encroachment
of forest land, and the socioeconomic
pressure to regularise them, continue
to be the most pernicious problem
of forest protection.
Deforestation:
It is difficult to
separate the causes from the effects
of deforestation and forest degradation.
Some direct causes of deforestation
are land clearances for agriculture
(including shifting cultivation),
other landuse changes including unplanned
urbanisation, land transfers, different
forms of encroachments, over-grazing,
uncontrolled and wasteful logging,
illegal felling, and excessive fuelwood
collection.
Shifting
Cultivation:
Shifting cultivation
refers to a farming system in which
a short but variable cultivation phase
(on slash-and-burn land) alternates
with a long and equally variable fallow
period. With increasing pressure on
forest lands, and shortening on the
fallow period, this practice of farming
which was once in balance with nature
has become disorderly causing considerable
damage to the regeneration of forests
cleared in this manner. Deleterious
effects include deforestation, spread
of sterile grassland, soil erosion,
and loss of productivity of forest
and agricultural land.
Collection
of Fuelwood:
Much of the rural
energy for cooking comes from collection
of fuelwood from forests. This contributes
to the overall deterioration of the
quality, stocking condition and productivity
of the forest ultimately leading to
deforestation and degradation.
Grazing in
Forest Land:
Forest land are an
important source of grazing and fodder
in the absence of adequate pasture
land and a viable policy of fodder
development. These include traditional
ethnic sedentary village livestock
and migratory animals herded by ethnic
grazers.
This results in
overgrazing and over-extraction of
green fodder, leading to forest degradation
through damages to regeneration and
compaction of soil.
Forest fires:
Forest fires, mostly
ground fires affect annually huge
of forest area. These are by and large
incendiary in nature. The environmental
impact of these depend on forest type.
The nature and severity of damage
depend on the type of forest, availability
of fuel and climatic factors.
Industrial
Activities:
Industrial effluents
and mining are also gradually emerging
as important agents of desertification.
In most cases the root of the problem
is the mismanagement by land users
and poor implementation of pollution
control regulations. Industrial effluents
and their discharge into inland waters
and irrigation with poor quality water
are rendering stretches of land in
some of the areas as degraded. Industrial
effluents from textile, printing and
dyeing industry and their discharge
into streams and rivers, which are
non-perennial with no flow during
the lean season severely contaminates
them. Use of such waters for irrigation
has affected agricultural land as
well. Besides productivity decline
or complete loss, progressive degeneration
of bio-diversity is yet another major
consequence of land degradation. In
many areas the groundwater has been
polluted.
Mining Activities:
Mining is another
major industry, which is a factor
of desertification. This is especially
with unplanned open cast mining and
dumping of mine refuse in the vicinity
of agricultural lands. Despite guidelines
and regulations for undertaking adequate
environmental measures mining operations,
open cast mining of sandstone, limestone,
marble, gypsum, and clay is largely
practised by small scale entrepreneurs
who do not take up post mining operations.
Consequently, such areas are gradually
turned into wastelands. China clay,
Fuller’s earth, calcite and
gypsum generate fine particles which
are washed down the slopes with runoff
and get deposited in the adjoining
cultivated fields. This eventually
leads to problems of waterlogging
and salinity.
Disposal of Soild & Toxic Wastes
onto Land:
Large tract of land
have been rendered useless due to
disposal of toxic industrial wastes.
In some areas, this has led to ground
water contamination as well. The costs
for reclamation of such land, if carried
out as per requirements, would be
enormous.
Demographic
pressures:
Population pressures
is a significant factor for land degradation.
Population Pressures in the Arid Region:
The general problem of arid areas
with large populations is essentially
one of human ecology. The inherently
limited resources within arid and
semi-arid regions set the ultimate
limit of production are finally dependent.
Furthermore, erratic rainfall results
in widely fluctuating production leading
to scarcity, which imposes stress
on these populations. In general,
the population density of both human
and livestock in the arid region is
much higher than the national average.
As population increases,
the demand on natural resources is
further magnified. This has led to
further intensive use of land and
other natural resources in drier regions.
The consequence is an imbalance between
the human and animal population on
the one hand and plants, water, and
land resources on the other. As the
demand by the first persists and increases,
the resources tend to become depleted
and, as depletion proceeds, the stress
upon them becomes even greater. Thus,
a process of progressive degradation
of resources is set into operation,
which intensifies with drought. If
not checked timely and effectively,
it leads to loss of vegetation, leading
to loss of biodiversity. The barrenness
of the land affects the hydrological
cycle which can affect the rainfall
pattern for the region. In the semi-arid,
sub-humid regions of the country also,
there are some areas such as the Gangetic
Plains, where the population density
is one of the highest in the world.
Drought and
Land Degradation:
Drought is generally
a naturally occurring phenomenon due
to deficit of rainfall in a region.
However, drought effects can be exacerbated
due to absence of vegetative cover
impacting the hydrological regime.
Drought could thus be another causative
factor for land degradation. Arid
and semi-arid regions encounter moderate
to severe droughts frequently leading
to crop failures and famines. While
droughts of transient nature may not
cause significant adverse effect on
the crop and livestock production,
severe droughts of recurring nature
lead to lower biomass production,
poor grain yields and scarcity of
fodder. In areas with restricted growing
season and soils of poor water holding
capacity, droughts have a significant
impact on the total biomass yield.
Such situations result in minimal
inputs of organic carbon into the
soils. Even the biomass recycling
through leaf litter from perennials
is reduced.
Further more, scarcity
during drought years leads to enhanced
grazing pressure by the livestock
which accentuates the problem of loss
of vegetative cover. The process is
aggravated if the following year also
is a drought year. This way recurrent
droughts lead to land degradation
mainly through decline in biomass
production and depletion of organic
carbon in the soils. It is, therefore,
not surprising that some of the most
severely degraded land are found in
the chronically drought prone areas
having shallow and light textured
soils.
Climatic
Change and Bio Diversity
Climate change and
desertification are independent phenomena,
but in constant interaction. Climate
gives the boundary conditions for
the desertification progress, and
desertification changes the partitioning
of energy and water fluxes that affect
the atmospheric circulation. Both
of them are influenced in their evolution
by human action. The recurrent cycles
of climate heating in history seem
to have been altered in the last century
mainly by the consequences of human
development. However, the sinergical
interaction between climate change,
ie global warming, and droughts could
favour desertification.
The exhaustion or
eutrophication of groundwater and
the degradation of the ecosystems
have also accompanied it. The fragile
equilibrium that sustains the ecosystems
of the dry lands is affected by these
variations in climate. This poses
a dangerous threat to the survival
of many species of flora and fauna
common to these areas and contributing
much to the richness of bio-diversity.
Withdrawl
of Water
The drought environment
is further aggravated by the cross
boundary anthropogenic interventions.
About 58 rivers that flow through
Bangladesh actually come through India
and Myanmar (India 55 and Myanmar
3). Most of these trans-boundary rivers
enter into the country along the NW
and SW regions.
The natural flow
of these rivers is interrupted by
upstream withdrawal of water for economic
and household uses as well as for
construction of water management structures
by the concerns countries. The effect
on these structures obstructs the
normal flow of water in rivers such
as the ganges (at Farakka),
the punarbhaba (just beyond Banglabandha)
and the tista. These structures mostly
divert dry season flow of the rivers,
which create not only a scarcity of
surface water in NW and SW Bangladesh,
but also tend to affect negatively
the recharge of groundwater in these
regions. Ultimately it leads to moisture
loss in a vast area and contributes
to drought condition in these two
regions of the country.
Groundwater hydraulic
resource beneath the surface of the
ground, consisting largely of surface
water seeped down. Such water accumulates
in porous strata and soils. Groundwater
represents around 30% of freshwater
resources of the earth, while lakes
and rivers correspond to less than
1%. The largest volume of freshwater
is stored in glaciers (69%). Groundwater
is one of the components of the hydrological
cycle, stored underground in rock
layers called aquifers - it is a result
of infiltration of rainfall and surface
water with which it maintains a close
relationship. When this water reaches
the groundwater table (ie the groundwater's
upper level), it begins a long, slow
journey underground, moving at rates
ranging from a few millimetres to
a few meters per day.
